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Vibrational electronics

The way we combine the nuclear spin basis fiinctions with the rotation-vibration-electronic basis fiinctions in H2 follows the same type of argument iism the nuclear penniitation group Rovibronic states of synnnetry... [Pg.174]

The rotation-vibration-electronic energy levels of the PH3 molecule (neglecting nuclear spin) can be labelled with the irreducible representation labels of the group The character table of this group is given in table Al.4.10. [Pg.177]

Gorse C and Capitelli M 1996 Non-equilibrium vibrational, electronic and dissociation kinetics in molecular plasmas and their coupling with the electron energy distribution function NATO ASI Series C 482 437-49... [Pg.2813]

The simplest way to write down the 2 x 2 Hamiltonian for two states such that its eigenvalues coincide at trigonally symmetric points in (x,y) or (q, ( )), plane is to consider the matrices of vibrational-electronic coupling of the e Jahn-Teller problem in a diabatic electronic state representation. These have been constructed by Haiperin, and listed in Appendix TV of [157], up to the third... [Pg.134]

Variational principle on the correlation problem, 213, 318, 320, 326 Vibrational electronic modes, 12 Vibrational entropy in dilute solutions, 133... [Pg.412]

E.A.V. Ebsworth, Edinburgh University Has Vibrational Electron Energy Loss spectroscopy any relevance in this context ... [Pg.453]

Keywords Inelastic Elastic Tunneling Spectroscopy Orbital mediated Vibrational Electronic Ionization levels Affinity levels... [Pg.190]

It should be apparent from the discussion above that STM possesses tremendous potential for the elucidation of processes at the electrode-electrolyte interface. Particularly promising are the prospects for in situ studies of electrode surfaces. Vibrational, electronic, and structural information is obtainable on an atomic scale for electrodes of importance to basic electrochemical studies. Although relatively few electrochemical applications have been demonstrated to date, the availability of commercial instrumentation (c.f.,95-97) ought to increase the accessibility of STM to electrochemists and widespread use of the technique is expected in the near future. [Pg.198]

Molecular vibrations, electron spin relaxation and the PRE Concluding remarks Acknowledgments References... [Pg.41]

An elementary treatment of the free-electron motion (see, e.g., Kittel, 1962, pp. 107-109) shows that the damping constant is related to the average time t between collisions by y = 1 /t. Collision times may be determined by impurities and imperfections at low temperatures but at ordinary temperatures are usually dominated by interaction of the electrons with lattice vibrations electron-phonon scattering. For most metals at room temperature y is much less than oip. Plasma frequencies of metals are in the visible and ultraviolet hu>p ranges from about 3 to 20 eV. Therefore, a good approximation to the Drude dielectric functions at visible and ultraviolet frequencies is... [Pg.254]

See other pages where Vibrational electronics is mentioned: [Pg.180]    [Pg.181]    [Pg.1193]    [Pg.477]    [Pg.484]    [Pg.502]    [Pg.1134]    [Pg.7]    [Pg.41]    [Pg.1096]    [Pg.247]    [Pg.363]    [Pg.1134]    [Pg.35]    [Pg.585]    [Pg.592]    [Pg.610]    [Pg.79]    [Pg.132]    [Pg.145]    [Pg.117]    [Pg.57]    [Pg.48]    [Pg.148]    [Pg.224]    [Pg.393]    [Pg.393]    [Pg.520]    [Pg.182]    [Pg.5]    [Pg.73]    [Pg.76]    [Pg.1038]   
See also in sourсe #XX -- [ Pg.348 , Pg.362 , Pg.363 , Pg.365 , Pg.367 , Pg.368 , Pg.369 , Pg.374 , Pg.379 , Pg.380 ]



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8- electron-molecular vibration coupling

A typical vibrational band of an electronic transition

Basic principles of electronic, vibrational and rotational spectroscopy

Coupling, electronic-vibrational

Donor electron-vibration coupling

Electron coupling to oxygen vibrations

Electron energy loss spectroscopy vibrational

Electron paramagnetic resonance vibrational effects

Electron vibrations

Electron vibrations

Electron-mediated vibrational energy

Electron-mediated vibrational energy transfer

Electron-vibration coupling

Electron-vibration coupling strength

Electron-vibration scattering

Electron-vibrational coupling

Electron-vibrational coupling interaction

Electron-vibrational excited states in molecular crystals

Electron-vibrational interaction

Electron-vibrational matrix elements

Electronic absorption spectra transition, vibrational structure

Electronic and Vibrational Circular Dichroism

Electronic and Vibrational Spectroscopies

Electronic and vibrational motions

Electronic and vibrational spectra

Electronic and vibrational states

Electronic and vibrational structure

Electronic characterization techniques band vibrational structure

Electronic spectroscopy vibrational structure

Electronic state properties, vibrationally

Electronic state properties, vibrationally averaged

Electronic states and vibrational levels responsible for the decomposition

Electronic structure computations vibrational corrections

Electronic structure computations vibrational frequencies

Electronic to vibrational energy

Electronic to vibrational energy transfer

Electronic vibrational spectrum

Electronic, Magnetic, and Vibrational Properties

Electronic, vibrational and rotational energies

Electronic-vibrational coupling constants

Electronic-vibrational coupling mechanism

Electronic-vibrational coupling parameters

Electronic-vibrational energy transfer

Electronic-vibrational-rotational spectroscopy

Energy level diagram showing electronic, vibrational, and rotational states

Energy levels, electronic/vibrational, Jablonski

Energy levels, electronic/vibrational, Jablonski diagram

Energy, electronic vibrational

Grounded electronic state potential energy surface, vibrational

High resolution electron energy loss vibrational studies

Interaction electronic-vibrational

Interactions electron-molecular vibration

Intramolecular vibrational energy redistribution ground electronic state

Lattice vibrations with electrons, 2251 table

Mixed-valence complexes electron-vibrational coupling

Modes, electronic vibrational

Molecular vibration electron diffraction

Molecular vibration electronic excitation

Molecule electron-vibrational interaction

Multi-vibrational electron transitions

Polarizability electronic-vibrational

Reversible electronic relaxation, vibrational

Rotation-Vibration-Electronic Energy Levels and Standard Notation

Rotation-Vibration-Electronic Spectra of Diatomic Molecules

Second-order vibrational perturbation theory excited electronic states

Slow electrons vibrational excitation

Two-Dimensional Electronic and Vibrational Spectroscopy

VEELS (vibrational electron energy loss

Valence electrons intramolecular vibrations

Vibrational Modes and Electron-Phonon Coupling

Vibrational electron energy loss

Vibrational frequency electron transfer

Vibrational modes electronic values correction

Vibrational modes first triplet electronic state

Vibrational potential energy electron transfer

Vibrational spectroscopy and electrons

Vibrational spectroscopy high-resolution electron-energy-loss

Vibrational trapping electron transfer

Vibrationally induced electronic currents

Vibrationally mediated photodissociation of molecules via excited electronic states

Wave function, electronic vibrational

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